Mechanical deformation of single-crystal ZnO

Date

2002-02-11

Authors

Kucheyev, S. O.
Bradby, J. E.
Williams, J. S.
Jagadish, C.
Swain, M. V.

Journal Title

Journal ISSN

Volume Title

Publisher

American Institute of Physics (AIP)

Abstract

The deformation behavior of bulk ZnO single crystals is studied by a combination of spherical nanoindentation and atomic force microscopy. Results show that ZnO exhibits plastic deformation for relatively low loads (>~4–13 mN with an ~4.2 mm radius spherical indenter). Interestingly, the elastic–plastic deformation transition threshold depends on the loading rate, with faster loading resulting, on average, in larger threshold values. Multiple discontinuities (so called ‘‘pop-in’’ events) in force–displacement curves are observed during indentation loading. No discontinuities are observed on unloading. Slip is identified as the major mode of plastic deformation in ZnO, and pop-in events are attributed to the initiation of slip. An analysis of partial load–unload data reveals values of the hardness and Young’s modulus of 5.060.1 and 111.264.7 GPa, respectively, for a plastic penetration depth of 300 nm. Physical processes determining deformation behavior of ZnO are discussed.

Description

Keywords

bulk ZnO single crystals, deformation behavior, spherical nanoindentation, atomic force microscopy, plastic deformation

Citation

Source

Applied Physics Letters

Type

Journal article

Book Title

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